厦门大学能源学院导师教师师资介绍简介-赵英汝

删除或更新信息，请邮件至freekaoyan#163.com(#换成@)

本站小编 Free考研考试/2021-05-09

赵英汝
教授
能源学院副院长
**
yrzhao@xmu.edu.cn

个人履历

2018.08至今能源学院教授
2011.10-2018.07 能源学院副教授
2010.06-2011.09 伦敦帝国理工学院，化学工程系，博士后
2008.11-2010.05 伦敦帝国理工学院，地球科学与工程系，博士后
2003.09-2008.09 厦门大学，物理与机电工程学院，博士
1999.09-2003.07 厦门大学，物理与机电工程学院，本科
研发方向

研究方向为能源系统工程，关注多能互补综合能源系统的建模与优化，综合系统能效、经济、排放等特性，探寻复杂能源系统的最优规划设计与运行决策方案。具体工作涉及能源互联网、微电网、化工动力多联产、智慧综合能源规划、城市能源系统等应用研究。
荣誉及奖励

1) 2008年入选中德科学中心“林岛****”项目，应德国林岛诺贝尔奖获得者大会基金会的邀请出席第58届诺贝尔物理奖获得者大会
2) 2011年入选教育部“新世纪优秀人才支持计划”
3) 2018年至今任Energies（MDPI Journal）客座编辑
4) 2018年至今任Frontiers in Energy Research客座编辑
5) 2019年至今任Applied Energy（Elsevier Journal）编委
6) 2019年至今任Progress in Energy（IOP Journal）编委
7) 2019年至今任Frontiers in Chemical Engineering审稿编辑
8) 2020年至今任Smart Energy（Elsevier Journal）编委
9) 2020年至今任《全球能源互联网》特约主编
10)2020年至今任Renewable and Sustainable Energy Transition（Elsevier Journal）副主编
11)2020年至今任福建省电机工程学会副理事长及智慧用能专业委员会副主任委员
承担课题

1) 企业委托课题，智慧综合能源发展规划指标及方法研究，2020-08，主持
2) 企业委托课题，福州新区福清功能区智慧能源项目，2019-07，主持
3) 国家自然科学基金面上项目，电-热-冷-气-储网络的多源协同能量管理与运行优化，2019-01，主持
4) 企业委托课题，城市综合能源管理系统技术可行性研究，2018-12，主持
5) 世界银行项目，中国可再生能源2035战略规划研究-可再生能源国际发展趋势分析，2018-07，参加（合作单位负责人）
6) 福建省科技计划引导性项目，区域能源网络的智能优化与调度运行技术开发，2018-04，主持
7) 企业委托课题，厨余垃圾转化与利用技术评估，2018-04，主持
8) 世界银行／全球环境基金技术援助项目，基于需求侧节能的综合能源规划实施路径研究，2015-04，参加（合作单位负责人）
9) 中德科学基金研究交流中心项目，智能城市过程：科学认识能源系统在规划和设计资源高效型城市中的作用，2014-06，中方主持
10) 国家国际科技合作专项，冶金中低温余热高效回收利用系统开发与工程设计研究，2014-03，参加（合作单位负责人）
11) 美国能源基金会中国可持续能源项目，福建省新型城镇化建设中新能源技术综合利用与产业发展路线图研究，2014-03，参加（项目骨干）
12) 企业委托课题，分布式能源智能综合利用示范项目，2014-03，主持
13) 企业委托课题，S-CO2布雷顿循环能量转换系统技术评估，2013-08，主持
14) 国家自然科学基金青年项目，生物质气化燃料电池-燃气轮机(BGFC-GT)一体化多联产系统的全局优化集成策略研究，2013-01，主持
15) 企业委托课题，厦门大学翔安校区一期工程建筑能效理论值测评技术服务，2012-12，主持
代表性论著

1. Nianyuan Wu, Xiangyan Zhan, Xingyi Zhu, Zhihui Zhang, Jian Lin, Shan Xie, Chao Meng, Liuxuan Cao, Xiaonan Wang, Nilay Shah, Xuyue Zheng, Yingru Zhao*. Analysis of biomass polygeneration integrated energy system based on a mixed-integer nonlinear programming optimization method, Journal of Cleaner Production, 271 (2020) 122761.
2. Wei Wang, Rui Jing, Yingru Zhao, Chuan Zhang, Xiaonan Wang*. A load-complementarity combined flexible clustering approach for large-scale urban energy-water nexus optimization. Applied Energy, 270 (2020) 115163.
3. Rui Jing, Kamal Kuriyan, Jian Lin, Nilay Shah, Yingru Zhao*. Quantifying the contribution of individual technologies in integrated urban energy systems - A system value approach, Applied Energy, 266 (2020) 114859.
4. Zhihui Zhang, Rui Jing, Jian Lin, Xiaonan Wang, Koen H. van Dam, Meng Wang, Chao Meng, Shan Xie, Yingru Zhao*. Combining agent-based residential demand modeling with design optimization for integrated energy systems planning and operation, Applied Energy, 263 (2020) 114623.
5. Rui Zhuang, Xiaonan Wang, Miao Guo, Yingru Zhao, Nael H.El-Farra, Ahmet Palazoglu. Waste-to-hydrogen: Recycling HCl to produce H2 and Cl2, Applied Energy, 259 (2020) 114184.
6. Xingyi Zhu, Xiangyan Zhan, Hao Liang, Xuyue Zheng, Yuwei Qiu, Jian Lin, Jincan Chen, Chao Meng, Yingru Zhao*. The Optimal Design and Operation Strategy of Renewable Energy-CCHP Coupled System Applied in Five Building Objects. Renewable Energy, 146 (2020) 2700-2715.
7. Rui Jing, Kamal Kuriyan, Qingyuan Kong, Zhihui Zhang, Nilay Shah, Ning Li, Yingru Zhao*. Exploring the impact space of different technologies using a portfolio constraint based approach for multi-objective optimization of integrated urban energy systems, Renewable and Sustainable Energy Reviews, 113 (2019) 109249.
8. Yunru Chen, Meng Wang, Vincenzo Liso, Sheila Samsatli, Nouri J Samsatli, Rui Jing, Jincan Chen, Ning Li, Yingru Zhao*. Parametric analysis and optimization for exergoeconomic performance of a combined system based on solid oxide fuel cell-gas turbine and supercritical carbon dioxide Brayton cycle, Energy Conversion and Management, 186 (2019) 66-81.
9. Rui Jing, Meng Wang, Zhihui Zhang, Xiaonan Wang, Ning Li, Nilay Shah, Yingru Zhao*. Distributed or centralized Designing district-level urban energy systems by a hierarchical approach considering demand uncertainties, Applied Energy, 252 (2019) 113424.
10. Wanli Peng, Ling Cai, Jian Lin, Yingru Zhao*, JincanChen*. The optimal operation states and parametric choice strategies of a DCFC-AMTEC coupling system with high efficiency, Energy Conversion and Management, 195 (2019) 360-366.
11. Jian Lin, Zhihui Zhang, Xingyi Zhu, Chao Meng, Ning Li, Jincan Chen, Yingru Zhao*. Performance evaluation and parametric optimization strategy of a thermocapacitive heat engine to harvest low-grade heat, Energy Conversion and Management, 184 (2019) 40-47.
12. Rui Jing, Meng Wang, Zhihui Zhang, Jian Liu, Hao Liang, Chao Meng, Nilay Shah, Ning Li, Yingru Zhao*. Comparative study of posteriori decision-making methods when designing building integrated energy systems with multi-objectives, Energy & Buildings, 194 (2019) 123-139.
13. Kai Ye, Yaoli Zhang*, Linlin Yang, Yingru Zhao, Ning Li, Congkai Xie. Modeling convective heat transfer of supercritical carbon dioxide using an artificial neural network, Applied Thermal Engineering, 150 (2019) 686-695.
14. Meng Wang, Rui Jing, Haoran Zhang, Chao Meng, Ning Li, Yingru Zhao*. An Innovative Organic Rankine Cycle (ORC) based Ocean Thermal Energy Conversion (OTEC) System with Performance Simulation and Multi-Objective Optimization, Applied Thermal Engineering, 145 (2018) 743–754.
15. Rui Jing, Meng Wang, Hao Liang, Xiaonan Wang, Ning Li, Nilay Shah, Yingru Zhao*. Multi-objective optimization of a neighborhood-level urban energy network: Considering Game-theory inspired multi-benefit allocation constraints, Applied Energy, 231 (2018) 534–548.
16. Rui Jing, Xingyi Zhu, Zhiyi Zhu, Wei Wang, Chao Meng, Nilay Shah, Ning Li, Yingru Zhao*. A multi-objective optimization and multi-criteria evaluation integrated framework for distributed energy system optimal planning, Energy Conversion and Management, 166 (2018) 445-462.
17. Xuyue Zheng, Guoce Wu, Yuwei Qiu, Xiangyan Zhan, Nilay Shah, Ning Li, Yingru Zhao*, A MINLP multi-objective optimization model for operational planning of a case study CCHP system in urban China, Applied Energy, 210 (2018) 1126-1140.
18. Shutang Wang, Minghui He, Bingjuan Weng, Lihui Gan, Yingru Zhao, Ning Li, Yannan Xie*. Stretchable and Wearable Triboelectric Nanogenerator Based on Kinesio Tape for Self-Powered Human Motion Sensing, Nanomaterials, 8 (2018) 657.
19. Xin Zhang, Ling Cai, Tianjun Liao, Yinghui Zhou, Yingru Zhao, Jincan Chen. Exploiting the waste heat from an alkaline fuel cell via electrochemical cycles, Energy, 142 (2018) 983-990.
20. Rui Jing, Meng Wang, Wei Wang, Nigel Brandon, Ning Li, Jincan Chen, Yingru Zhao*. Economic and environmental multi-optimal design and dispatch of solid oxide fuel cell based CCHP system, Energy Conversion and Management, 154 (2017) 365-379.
21. Yingru Zhao*, Xiangyan Zhan, Shiqi Zhang, Meng Wang. Perspective on the R&Ds in energy chemistry systems engineering, SCIENCE CHINA Chemistry, 60 (2017) 1386-1390.
22. Rui Jing, Meng Wang, Nigel Brandon, Yingru Zhao*. Multi-criteria evaluation of solid oxide fuel cell based combined cooling heating and power (SOFC-CCHP) applications for public buildings in China, Energy, 141 (2017) 273-289.
23. Zhimin Yang, Wanli Peng, Tianjun Liao, Yingru Zhao, Guoxing Lin, Jincan Chen*. An efficient method exploiting the waste heat from a direct carbon fuel cell by means of a thermophotovoltaic cell, Energy Conversion and Management, 149 (2017) 424-431.
24. Xuyue Zheng, Yuwei Qiu, Xiangyan Zhan, Xingyi Zhu, James Keirstead, Nilay Shah, Yingru Zhao*. Optimization based planning of urban energy systems: Retrofitting a Chinese industrial park as a case-study, Energy, 139 (2017) 31-41.
25. Shiqi Zhang, Haolun Liu, Meili Liu, Eiichi Sakaue, Ning Li, Yingru Zhao*. An efficient integration strategy for a SOFC-GT-SORC combined system with performance simulation and parametric optimization, Applied Thermal Engineering, Volume 121 (2017) 314–324.
26. Rui Jing, Meng Wang, Ruoxi Zhang, Ning Li, Yingru Zhao*. A study on energy performance of 30 commercial of?ce buildings in Hong Kong, Energy and Buildings, 144 (2017) 117–128.
27. Xin Zhang, Yuzhuo Pan, Ling Cai, Yingru Zhao, Jincan Chen*. Using electrochemical cycles to ef?ciently exploit the waste heat from a proton exchange membrane fuel cell, Energy Conversion and Management, 144 (2017) 217–223.
28. Yannan Xie, Ting-Mao Chou, Weifeng Yang, Minghui He, Yingru Zhao, Ning Li, Zong-Hong Lin*. Flexible thermoelectric nanogenerator based on the MoS2/graphene nanocomposite and its application for a self-powered temperature sensor, Semiconductor Science and Technology, 32 (2017) 044003.
29. Ziqiang Ming, Yunquan Liu, Yueyuan Ye, Shuirong Li, Yingru Zhao, Duo Wang*. Study of a new combined method for pre-extraction of essential oils and catalytic fast pyrolysis of pine sawdust, Energy, 116 (2016) 558-566.
30. Xiaohang Chen*, Yuan Wang, Yingru Zhao, Yinghui Zhou*. A study of double functions and load matching of a phosphoric acid fuel cell/heat-driven refrigerator hybrid system, Energy, 101 (2016) 359-365.
31. Tianjun Liao, Ling Cai, Yingru Zhao, Jincan Chen*. Ef?ciently exploiting the waste heat in solid oxide fuel cell by means of thermophotovoltaic cell, Journal of Power Sources, 306 (2016) 666-673.
32. Chunping Xie *, Kerui Du, Yingru Zhao, Nigel Brandon. Possibilities of coal egas substitution in East Asia: A comparison among China, Japan and South Korea, Natural Gas Industry B, 3 (2016) 387-397.
33. Vincenzo Liso*, Yingru Zhao, Wenyuan Yang and Mads Pagh Nielsen. Modelling of a Solid Oxide Fuel Cell CHP System Coupled with a Hot Water Storage Tank for a Single Household, Energies, 8 (2015) 2211-2229.
34. Weyuan Yang, Yingru Zhao*, Vincenzo Liso, Nigel Brandon. Optimal Design and Operation of A Syngas-fuelled SOFC Micro-CHP System for Residential Applications in Different Climate Zones in China, Energy and Buildings, 80 (2014) 613–622.
35. Yingru Zhao, Jhuma Sadhukhan, Andrea Lanzini, Nigel Brandon, Nilay Shah?. Optimal Integration Strategies for A Syngas Fuelled SOFC and Gas Turbine Hybrid System, Journal of Power Sources, 196 (2011) 9516-9527.
36. Yingru Zhao, Nilay Shah, Nigel Brandon*. Comparison between two optimization strategies for Solid Oxide Fuel Cell-Gas Turbine hybrid cycles, International Journal of Hydrogen Energy, 36 (2011) 10235-10246.
37. Vincenzo Liso*, Yingru Zhao, Nigel Brandon, Mads Pagh Nielsen, S?ren Knudsen K?r. Analysis of the impact of heat-to-power ratio for a SOFC-based mCHP system for residential application under different climate regions in Europe, International Journal of Hydrogen Energy, 36 (2011) 13715-13726.
38. Xiuqin Zhang, Shanhe Su, Jincan Chen*, Yingru Zhao, Nigel Brandon. A new analytical approach to evaluate and optimize the performance of an irreversible solid oxide fuel cell-gas turbine hybrid system, International Journal of Hydrogen Energy, 36 (2011) 15304-15312.
39. Yingru Zhao, Nilay Shah, Nigel Brandon*. The development and application of a novel optimisation strategy for solid oxide fuel cell-gas turbine hybrid cycles, Fuel Cells, 10 (2010) 181-193.
40. Jhuma Sadhukhan*, Yingru Zhao, Matthew Leach, Nigel Brandon, Nilay Shah. Energy Integration and Analysis of Solid Oxide Fuel Cell Based Microcombined Heat and Power Systems and Other Renewable Systems Using Biomass Waste Derived Syngas, Industrial & Engineering Chemistry Research, 49 (2010) 11506-11516.
41. Jhuma Sadhukhan*, Yingru Zhao, Nilay Shah, Nigel P Brandon. Performance analysis of integrated biomass gasification fuel cell (BGFC) and biomass gasification combined cycle (BGCC) systems, Chemical Engineering Science, 65 (2010) 1942-1954.
42. Yingru Zhao, Jincan Chen*. Modeling and optimization of a typical fuel cell–heat engine hybrid system and its parametric design criteria, Journal of Power Sources, 186 (2009) 96-103.
43. Yingru Zhao, Congjie Ou, Jincan Chen*. A new analytical approach to model and evaluate the performance of a class of irreversible fuel cells, International Journal of Hydrogen Energy, 33 (2008) 4161-4170.
44. Yingru Zhao, Jincan Chen*. Irreversible Otto heat engine with friction and heat leak losses and its parametric optimum criteria, Journal of the Energy Institute, 81 (2008) 54-58.
45. Tongling Lin, Yingru Zhao, Jincan Chen*. Expressions for Entropy Production Rate of Fuel Cells, Chinese Journal of Chemical Physics, 21(2008) 361-366.
46. Bihong Lin, Yingru Zhao, Jincan Chen*. Parametric optimum analysis of an irreversible Ericsson cryogenic refrigeration cycle working with an ideal Fermi gas, Pramana-Journal of Physics, 70 (2008) 779-795.
47. Yingru Zhao, Jincan Chen*. Optimum performance analysis of an irreversible Diesel heat engine affected by variable heat capacities of working fluid, Energy Conversion and Management, 48 (2007) 2595-2603.
48. Yingru Zhao, Jincan Chen*. Performance analysis of an irreversible Miller heat engine and its optimum criteria, Applied Thermal Engineering, 27 (2007) 2051-2058.
49. Yingru Zhao, Jincan Chen*. An irreversible heat engine model including three typical thermodynamic cycles and their optimum performance analysis, International Journal of Thermal Sciences, 46 (2007) 605-613.
50. Yingru Zhao, Bihong Lin, Jincan Chen*. Optimum criteria on the important parameters of an irreversible Otto heat engine with the temperature-dependent heat capacities of the working fluid, Journal of Energy Resources Technology-Transactions of the ASME, 129 (2007) 348-354.
51. Yingru Zhao, Bihong Lin, Yue Zhang, Jincan Chen*. Performance analysis and parametric optimum design of an irreversible Diesel heat engine, Energy Conversion and Management, 47 (2006) 3383-3392.
52. Yingru Zhao, Jincan Chen*. Performance analysis and parametric optimum criteria of an irreversible Atkinson heat-engine, Applied Energy, 83 (2006) 789-800.
53. Jincan Chen*, Yingru Zhao, Jizhou He. Optimization criteria for the important parameters of an irreversible Otto heat-engine, Applied Energy, 83 (2006) 228-238.